2020
DOI: 10.11159/jffhmt.2020.001
|View full text |Cite
|
Sign up to set email alerts
|

Solid-Liquid Phase Change in the Presence of Gas Phase: Numerical Modeling and Validation

Abstract: In the present work a fundamental numerical model is implemented in the open source framework, finite volume method (FVM) based computational fluid dynamics (CFD) program OpenFOAM®, to tackle the solid-liquid phase change phenomena in the presence of gas phase. The volume of fluid (VoF) method is employed to distinguish between the phase change material (PCM) and the gas phase, and the enthalpyporosity method is adopted to capture the moving boundary phase change phenomena in the PCM. The discussed model is va… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
1

Citation Types

0
1
0

Year Published

2021
2021
2023
2023

Publication Types

Select...
1
1

Relationship

1
1

Authors

Journals

citations
Cited by 2 publications
(1 citation statement)
references
References 23 publications
0
1
0
Order By: Relevance
“…The enthalpy-porosity technique [3] has been employed to predict the temporal and spatial evolution of the solid-liquid phase front and to enforce the velocity field in the solid region to zero. The complete multi-physics model is developed and implemented in the open-source Finite Volume Method (FVM) based Computational Fluid Dynamics (CFD) software, OpenFOAM ® , and has been rigorously validated in our previous work [4].…”
Section: Extended Abstractmentioning
confidence: 99%
“…The enthalpy-porosity technique [3] has been employed to predict the temporal and spatial evolution of the solid-liquid phase front and to enforce the velocity field in the solid region to zero. The complete multi-physics model is developed and implemented in the open-source Finite Volume Method (FVM) based Computational Fluid Dynamics (CFD) software, OpenFOAM ® , and has been rigorously validated in our previous work [4].…”
Section: Extended Abstractmentioning
confidence: 99%